Isabel Català scite author profile

Breast cancer resistance protein (BCRP/MXR/ABCP/ABCG2; hereafter ABCG2) is a member of the ATP-binding-cassette family of transporters that causes multi-drug resistance to various anticancer drugs. The expression of ABCG2 in human tumours and its potential involvement in clinical drug resistance are unknown. Recently, two monoclonal antibodies against human ABCG2 were produced, BXP-34 and BXP-21. This study describes an immunohistochemical method using BXP-21 to study ABCG2 expression in formalin-fixed, paraffin-embedded tissues. No staining was seen using BXP-34 with the same protocols. The expression of ABCG2 was then investigated in a panel of 150 untreated human solid tumours comprising 21 tumour types. Overall, ABCG2 expression was frequent. Specificity of immunohistochemistry was confirmed by the detection of a 72 kD band in western blotting. ABCG2 expression was seen in all tumour types, but it seemed more frequent in adenocarcinomas of the digestive tract, endometrium, and lung, and melanoma. Positive tumours showed membranous and cytoplasmic staining. In certain adenocarcinomas, prominent membranous staining was seen. Endothelial cells frequently displayed moderate to strong staining. ABCG2 is widely present in untreated human solid tumours and may represent a clinically relevant mechanism of drug resistance. Future studies in specific tumour types are needed to ascertain its clinical relevance. BXP-21 and the immunohistochemical protocol described here will be of value in these investigations.

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Cervical Human Papillomavirus Infection in the Female Population in Barcelona, Spain

Sanjosé¹,

Almirall

Lloveras

et al. 2003

139

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Interplay between BRCA1 and RHAMM Regulates Epithelial Apicobasal Polarization and May Influence Risk of Breast Cancer

Maxwell¹,

Benı́tez²,

Gómez-Baldó³

et al. 2011

PLoS Biol

123

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Epibulbar Seeding at the Site of a Transvitreal Fine-Needle Aspiration Biopsy

Caminal

Sanz²,

Carreras³

et al. 2006

Arch Ophthalmol

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Stem cell-like transcriptional reprogramming mediates metastatic resistance to mTOR inhibition

et al. 2016

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Inhibitors of the mechanistic target of rapamycin (mTOR) are currently used to treat advanced metastatic breast cancer. However, whether an aggressive phenotype is sustained through adaptation or resistance to mTOR inhibition remains unknown. Here, complementary studies in human tumors, cancer models and cell lines reveal transcriptional reprogramming that supports metastasis in response to mTOR inhibition. This cancer feature is driven by EVI1 and SOX9. EVI1 functionally cooperates with and positively regulates SOX9, and promotes the transcriptional upregulation of key mTOR pathway components (REHB and RAPTOR) and of lung metastasis mediators (FSCN1 and SPARC). The expression of EVI1 and SOX9 is associated with stem cell-like and metastasis signatures, and their depletion impairs the metastatic potential of breast cancer cells. These results establish the mechanistic link between resistance to mTOR inhibition and cancer metastatic potential, thus enhancing our understanding of mTOR targeting failure.

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Isabel Català

Frequent expression of the multi‐drug resistance‐associated protein BCRP/MXR/ABCP/ABCG2 in human tumours detected by the BXP‐21 monoclonal antibody in paraffin‐embedded material

Cervical Human Papillomavirus Infection in the Female Population in Barcelona, Spain

Interplay between BRCA1 and RHAMM Regulates Epithelial Apicobasal Polarization and May Influence Risk of Breast Cancer

Epibulbar Seeding at the Site of a Transvitreal Fine-Needle Aspiration Biopsy

Stem cell-like transcriptional reprogramming mediates metastatic resistance to mTOR inhibition

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